Astronauts on China's Tiangong station used artificial photosynthesis to turn CO₂ and water into oxygen and rocket fuel.

Scientists at the University of Twente have developed a way to create highly ordered semiconductor material at room temperature. This UT research was published today in Nature Synthesis.

A research team from Skoltech and ITMO university has obtained tunable polariton emission at room temperature on CsPbBr3 ...

Breathing New Air Chinese astronauts claim to have created rocket fuel on board the country's Tiangong space station using a ...

Quantum computers have the potential of outperforming classical computers on some optimization tasks. Yet scaling up quantum ...

The 12 experiments carried out at the Tiangong space station focused on key technologies such as the conversion of carbon dioxide at room temperature.

Scientists have developed a novel technique to transform symmetrical semiconductor particles into intricately twisted, spiral ...

Dr. Andrew Dunn, Quantum Brilliance COO Will Develop Strategic Partnerships to Speed up Adoption of QB's Groundbreaking Room Temperature, Q ...

Semiconductor nanoparticles typically consist of a crystalline ... In this technique, all the precursors and solvents are mixed at room temperature and then heated to a desired temperature to initiate ...

The team focused on metal halide perovskites, known for their ability to absorb sunlight efficiently and their use in devices ...

Quantum Brilliance (QB), a global leader in mass deployable, room temperature diamond quantum technology, today announced ...